Elevating the significance of legume intake: A novel strategy to counter aging‐related mitochondrial dysfunction and physical decline

Zheng, Qingwei; Wang, Feijie; Nie, Chenzhipeng; Zhang, Kuiliang; Sun, Yujie; AL‐Ansi, Waleed; Wu, Qiming; Wang, Li; Du, Jun; Li, Yan

doi:10.1111/1541-4337.13342

Comp Rev Food Sci Food Safe

2024

DOI: 10.1111/1541-4337.13342

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Elevating the significance of legume intake: A novel strategy to counter aging‐related mitochondrial dysfunction and physical decline

Qingwei Zheng,

Feijie Wang,

Chenzhipeng Nie

et al.

Abstract: Mitochondrial dysfunction increasingly becomes a target for promoting healthy aging and longevity. The dysfunction of mitochondria with age ultimately leads to a decline in physical functions. Among them, biogenesis dysfunction and the imbalances in the metabolism of reactive oxygen species and mitochondria as signaling organelles in the aging process have aroused our attention. Dietary intervention in mitochondrial dysfunction and physical decline during aging processes is essential, and greater attention sho… Show more

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Association between plant and animal protein and biological aging: findings from the UK Biobank

Xu,

Hu,

Pang

et al. 2024

Eur J Nutr

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Purpose This study aimed to evaluate the relationship between plant protein, animal protein and biological aging through different dimensions of biological aging indices. Then explore the effects of substitution of plant protein, animal protein, and their food sources on biological aging. Methods The data came from 79,294 participants in the UK Biobank who completed at least two 24-h dietary assessments. Higher Klemera-Doubal Method Biological Age (HKDM-BA), higher PhenoAge (HPA), higher allostatic load (HAL), and longer telomere length (LTL) were estimated to assess biological aging. Logistic regression was used to estimate protein-biological aging associations. Substitution model was performed to assess the effect of dietary protein substitutions. Results Plant protein intake was inversely associated with HKDM-BA, HPA, HAL, and positively associated with LTL (odds ratios after fully adjusting and comparing the highest to the lowest quartile: 0.83 (0.79–0.88) for HKDM-BA, 0.86 (0.72–0.94) for HPA, 0.90 (0.85–0.95) for HAL, 1.06 (1.01–1.12) for LTL), while animal protein was not correlated with the four indices. Substituting 5% of energy intake from animal protein with plant protein, replacing red meat or poultry with whole grains, and replacing red or processed meat with nuts, were negatively associated with HKDM-BA, HPA, HAL and positively associated with LTL. However, an inverse association was found when legumes were substituted for yogurt. Gamma glutamyltransferase, alanine aminotransferase, and aspartate aminotransferase mediated the relationship between plant protein and HKDM-BA, HPA, HAL, and LTL (mediation proportion 11.5–24.5%; 1.9–6.7%; 2.8–4.5%, respectively). Conclusion Higher plant protein intake is inversely associated with biological aging. Although there is no association with animal protein, food with animal proteins displayed a varied correlation. Supplementary Information The online version contains supplementary material available at 10.1007/s00394-024-03494-9.

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Association between plant and animal protein and biological aging: findings from the UK Biobank

Xu,

Hu,

Pang

et al. 2024

Eur J Nutr

View full text Add to dashboard Cite

show abstract

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Elevating the significance of legume intake: A novel strategy to counter aging‐related mitochondrial dysfunction and physical decline

Cited by 1 publication

References 295 publications

Association between plant and animal protein and biological aging: findings from the UK Biobank

Association between plant and animal protein and biological aging: findings from the UK Biobank

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